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Publication numberUS2553259 A
Publication typeGrant
Publication dateMay 15, 1951
Filing dateSep 2, 1947
Priority dateSep 2, 1946
Publication numberUS 2553259 A, US 2553259A, US-A-2553259, US2553259 A, US2553259A
InventorsHagedorn Hans Christian
Original AssigneeNordisk Insulinlab
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Process of joining plastic substances
US 2553259 A
Abstract  available in
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Claims  available in
Description  (OCR text may contain errors)

May 15,5195] H. c. HAGEDORN PROCESS OF JOINING PLASTIC SUBSTANCES Filed Sept. 2, 1947 Patented May 15, 1951 PROCESS OF JOINING PLASTIC SUBSTANCES Hans Christian Hagedorn, Gentofte, Denmark,

assignor to Nordisk Insulinlaboratorium, Gentofte, Denmark, a corporation of Denmark Application September 2, 1947, Serial No. 771,667 In Denmark September 2, 1946 4 Claims. (Cl. 154-126) This invention relates to the joining of articles formed of plastics, more especially thermoplastics.

It is an object of my invention to provide a process by which articles formed of plastics may be united or joined together with an effective bond and without any objectionable distortion. More specifically, it is my object to provide an effective process of fusing an article of thermoplastic material to another plastic article or to soften a piece of thermoplastic material to a point where it will adhere to and unite two or more plastic articles. It is my especial object to localize the heat action in the regions where softening or fusing of the thermoplastic material is desired, whereby to avoid distortion resulting from softening of other portions of thermoplastic material. My invention is especially useful in the sealing of containers, and more particularly in the sealing of containers for injection medicines.

In carrying out my invention, I employ visible or invisible, light ray or rays of generally similar character, and I employ as the thermoplastic material which is to be softened or fused to effect the desired joint a thermoplastic which is more opaque to the rays used than is at least one of the other articles. In practicing the process, the articles to be joined are juxtaposed in the desired position and the rays, Which may be concentrated by any convenient reflecting or retracting system, are passed through the transparent article in a direction to strike the relatively opaque thermoplastic which is to be softened or fused. If the rays are concentrated over an area less than that which is to be softened, the juxtaposed articles are moved transversely of the rays to bring all surface portions of the thermoplastic successively into the rays. The rays have less heating effect on the relatively transparent article through which they first pass; but upon striking the relatively opaque thermoplastic, they are absorbed, heat is generated, and the thermoplastic softens and fuses to form a bond. A relatively thin piece of relatively opaque thermoplastic may be employed to join or unite two other articles, one of which is relatively transparent, by placing the opaque thermoplastic between the two articles and passing the rays through the transparent article in the manner indicated.

The accompanying drawing illustrates my invention: Fig. 1 is a longitudinal section of an ampoule adapted to contain injection medicine,

and Fig. 2 is an illustration, somewhat diagrammatic in character, showing one form of apparatus suitable for use in carrying out the invention.

The ampoule shown in Fig. 1 comprises a hollow cylindrical body portion In and a closure disk ll adapted to seal the open upper end of the ampoule-body. In the specific structure illustrated, the upper end of the ampoule H] is counterbored to a diameter somewhat greater than that of the closure l l; and in the intervening annular space between the wall of the counterbore and the periphery of the disk there is disposed a ring I2 of the material which is to be used to unite the disk with the ampoule-body. The material forming the ring I2 is thermoplastic in character and is materially less transparent with respect to the irradiation which is to be used than is the material of the ampoulebody Ill.

The apparatus illustrated in Fig. 2 for completing the joint between the container-body I0 and the closure ll comprises a pair of parabolic mirrors I3 and I4 and a source E5 of light or other suitable irradiation. The light-source I5 is located at the focus of the mirror l3, the mirror [4 is disposed to receive the light beam reflected from the mirror l3, and the container It] with its closure H are disposed in such relation to the mirror I4 that the rays reflected from it will be concentrated at a point in the periphery of the ring i2. With the container so positioned, it is rotated slowly so that all portions of the ring l2 will pass through the focus ofthe mirror M. The rays reflected from the mirror it pass through the relatively transparent material of the ampoule-body Iii without material absorption and hence without any substantial effect on that material. Upon striking the relatively opaque material of the ring l2, however, the rays are absorbed, heat is generated, and the thermoplastic material of the ring I2 softens or fuses to form a joint between the closure disk El and the ampoule-body I0.

Without the intention of limiting myself to any specific materials, I may cite transparent polystyrene as a suitable material for the ampou1e-body l0 and the closure disk H. The ring l2 may be formed of opaque polystyrene or of any other opaque thermoplastic.

It will of course be understood that the apparatus illustrated in Fig. 2 is but one of various suitable forms of apparatus capable of use in practicing my invention. If the thermoplastic material which is to be softened or fused in making the joint has a meltin point sufficiently low, or if time permits, means such as the reflectors l3 and M for concentrating irradiation may be dispensed with. The particular form of joint illustrated in the drawing is intended merely as an example, as the invention is not in any way limited in respect to the form of the articles which are to be joined. Neither is it essential that the thermoplastic which is softened or fused in creating the joint be a separate element interposed between two others; for the invention can be used in joining two articles one of which is thermoplastic in character and is opaque, at least in the vicinity of the joint, with respect to the irradiation employed, while the other is transparent with respect to such irradiation. In most instances the irradiation employed may be visible light, the thermoplastic dark in color if not completely black, and the article through which the light passes clear and transparent.

The articles joined (or the transparent article to be joined to an opaque thermoplastic article, where only such two articles are involved) may or may not themselves be thermoplastic. Where any such article is thermoplastic, its surface portions adjacent the joint may be softened slightly by heat transmitted from the opaque thermoplastic material, and such slight SOftening may aid in producing an effective joint. However, the source of heat will be the opaque thermoplastic, which will always be hotter than the transparent material; and it is therefore possible to confine any softenin of the transparent material to the region immediately adjacent the joint.

Where the opaque thermoplastic is used to join two other articles, it should be relatively thin; because the heat will largely be generated at the opaque surface upon which the radiation impinges and can reach other portions of the thermoplastic only by conduction. This last noted fact is of advantage where only two articles, one opaque and thermoplastic and the other transparent are involved; for in that situation softening of the thermoplastic article can be confined to surface portions immediately adjacent the joint while the remainder of the article retain sufiicient rigidity to avoid distortion.

I claim as my invention:

1. The process of uniting with the aid of irradiation a first part of a thermoplastic material relatively opaque to such irradiation and a second part transparent to such irradiation, which process comprises juxtaposing the two parts and passing the irradiation through the second part on to the first article to produce softening thereof.

2. A process as set forth in claim 1 with the additional steps of concentrating the irradiation into a beam having a cross-sectional area smaller than the surface, of the first part and producing relative movement of the beam and the juxtaposed parts to cause the concentrated beam to impinge upon substantially all surface portions of the first part which are to be softened.

3. The process of uniting with the aid of irradiation two articles at least one of which is relatively transparent to such irradiation, which process consists in juxtaposing the two articles with an interposed member of a thermoplastic material relatively opaque to the irradiation and passing the irradiation through the transparent article on to the opaque member to produce softening thereof.

4. A process as set forth in claim 1 with the addition that the irradiation comprises Visible light.


REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS Number Name Date 1,784,216 Aldrich Dec. 9, 1930 2,270,654 Johnson Jan. 20, 1942' 2,296,307 Power Sept. 22, 1942 2,358,455 Hallman Sept. 19, 1944

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US1784216 *Apr 5, 1927Dec 9, 1930Wubco Battery CorpProcess and means for sealing storage batteries
US2270654 *Dec 19, 1939Jan 20, 1942Interchem CorpMethod and apparatus for drying printing inks
US2296307 *Feb 28, 1941Sep 22, 1942Rca CorpMethod of making glass-to-metal seals
US2358455 *Dec 6, 1939Sep 19, 1944Harold E HallmanRadiant heat seal
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US2667205 *Feb 28, 1951Jan 26, 1954Rca CorpHeating unit for cementing bases to electron tubes
US2937481 *Jun 19, 1958May 24, 1960Fr CorpMethod of producing a package
US2996987 *Feb 13, 1958Aug 22, 1961Hercules Powder Co LtdBlasting cap assembly
US3131623 *Oct 30, 1961May 5, 1964Phillips Petroleum CoMethod and apparatus for making thermoplastic film seams
US3217088 *Nov 30, 1962Nov 9, 1965Owens Illinois Glass CoJoining glass members and encapsulation of small electrical components
US3366503 *Jan 23, 1967Jan 30, 1968Eagle Picher Ind IncProcess of embedding flock in a polyethylene substrate
US4156626 *Jul 18, 1977May 29, 1979Souder James JMethod and apparatus for selectively heating discrete areas of surfaces with radiant energy
US4419304 *Jul 15, 1980Dec 6, 1983Western Electric Company, Inc.Method for forming seals with heat shrinkable materials
US4976596 *Jul 7, 1989Dec 11, 1990At&T Bell LaboratoriesApparatus for recoating spliced lengths of optical fibers
US5177340 *Jul 31, 1991Jan 5, 1993Cincinnati Milacron Inc.Control of radiant heating system for thermoplastic composite tape
US5453149 *Feb 7, 1991Sep 26, 1995Ashland Oil CompanyImproved process for effecting electromagnetic bonding of plastic parts
US6179131Jun 25, 1998Jan 30, 2001Pti Technologies, Inc.Fusion-welded thermoplastic filter assembly and a method of fabricating the same
USRE32056 *Jun 9, 1981Dec 24, 1985Baxter Travenol Laboratories, Inc.Method of forming a connection between two sealed conduits using radiant energy
WO1995021737A1 *Feb 3, 1995Aug 17, 1995Uponor LimitedMethod of joining elongate hollow members
U.S. Classification53/420, 392/426, 156/272.2, 156/69
International ClassificationB29C65/14
Cooperative ClassificationB29C65/1435, B29C65/1409, B29C66/65, B29C66/53461, B29C65/148, B29C65/1454
European ClassificationB29C66/534, B29C65/14